Electro-permanent magnetic devices including unbalanced switching and permanent magnets and related methods and controllers
First Claim
1. A method of operating an electro-permanent magnet including a plurality of permanent magnets, a plurality of switching magnets, and a working surface, the method comprising:
- providing the electro-permanent magnet in an on state such that magnetic fields of the switching and permanent magnets combine to generate a first magnetic field having a first magnitude and a first polarity extending beyond the working surface, wherein providing the electro-permanent magnet in the on state includes providing a workpiece that is magnetically secured to the working surface in the on state;
switching the electro-permanent magnet from the on state to a reversed state having a second polarity such that magnetic fields of the switching and permanent magnets combine to generate a second magnetic field having a second magnitude and a second polarity extending beyond the working surface, wherein the second magnitude is less than the first magnitude, and wherein the first and second polarities are different; and
after switching the electro-permanent magnet to the reversed state, switching the electro-permanent magnet from the reversed state to a first off state with the workpiece adjacent to the working surface such that magnetic fields of the switching and permanent magnets combine to generate a third magnetic field having a magnitude beyond the working surface that is no more than 50 percent of the second magnitude beyond the working surface;
after switching the electro-permanent magnet to the first off state, separating the workpiece from the working surface; and
after separating the workpiece from the working surface, switching the electro-permanent magnet to a second off state such that magnetic fields of the switching and permanent magnets combine to generate a fourth magnetic field having a magnitude that is no more than one quarter of the second magnitude beyond the working surface without the workpiece adjacent to the working surface.
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Accused Products
Abstract
A method of operating an electro-permanent magnet may include switching the electro-permanent magnet from an on state wherein magnetic fields of switching and permanent magnets combine to generate a first magnetic field having a first magnitude and a first polarity to a reversed state having a second polarity wherein magnetic fields of the switching magnets and the permanent magnets combine to generate a second magnetic field having a second magnitude less than the first magnitude and a second polarity different than the first polarity. The electro-permanent magnet may be switched from the reversed state to an off state wherein magnetic fields of the switching and permanent magnets combine to generate a third magnetic field having a magnitude that is no more than 50 percent of the second magnitude. Related electro-permanent magnets are also discussed.
22 Citations
23 Claims
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1. A method of operating an electro-permanent magnet including a plurality of permanent magnets, a plurality of switching magnets, and a working surface, the method comprising:
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providing the electro-permanent magnet in an on state such that magnetic fields of the switching and permanent magnets combine to generate a first magnetic field having a first magnitude and a first polarity extending beyond the working surface, wherein providing the electro-permanent magnet in the on state includes providing a workpiece that is magnetically secured to the working surface in the on state; switching the electro-permanent magnet from the on state to a reversed state having a second polarity such that magnetic fields of the switching and permanent magnets combine to generate a second magnetic field having a second magnitude and a second polarity extending beyond the working surface, wherein the second magnitude is less than the first magnitude, and wherein the first and second polarities are different; and after switching the electro-permanent magnet to the reversed state, switching the electro-permanent magnet from the reversed state to a first off state with the workpiece adjacent to the working surface such that magnetic fields of the switching and permanent magnets combine to generate a third magnetic field having a magnitude beyond the working surface that is no more than 50 percent of the second magnitude beyond the working surface; after switching the electro-permanent magnet to the first off state, separating the workpiece from the working surface; and after separating the workpiece from the working surface, switching the electro-permanent magnet to a second off state such that magnetic fields of the switching and permanent magnets combine to generate a fourth magnetic field having a magnitude that is no more than one quarter of the second magnitude beyond the working surface without the workpiece adjacent to the working surface. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10)
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11. A method of operating an electro-permanent magnet including a plurality of permanent magnets, a plurality of switching magnets, a working surface, a first pole piece, and a second pole piece, wherein the plurality of switching magnets includes first and second switching magnets, wherein the first pole piece is between the first switching magnet and the working surface, wherein the second pole piece is between the second switching magnet and the working surface, and wherein at least one of the permanent magnets is arranged between the first and second pole pieces with a north pole of the permanent magnet adjacent the first pole piece and a south pole of the permanent magnet adjacent the second pole piece, the method comprising:
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providing the electro-permanent magnet in an on state such that magnetic fields of the switching and permanent magnets combine to generate a first magnetic field having a first magnitude and a first polarity extending beyond the working surface, wherein providing the electro-permanent magnet in the on state comprises switching the first switching magnet to provide a north pole adjacent the first pole piece and switching the second switching magnet to provide a south pole adjacent the second pole piece so that the first pole piece acts as a north pole and the second pole piece acts as a south pole; switching the electro-permanent magnet from the on state to a reversed state having a second polarity such that magnetic fields of the switching and permanent magnets combine to generate a second magnetic field having a second magnitude and a second polarity extending beyond the working surface, wherein the second magnitude is less than the first magnitude, and wherein the first and second polarities are different, wherein switching the electro-permanent magnet to the reversed state comprises switching the first switching magnet to provide a south pole adjacent the first pole piece and switching the second switching magnet to provide a north pole adjacent the second pole piece so that the first pole piece acts as a south pole and the second pole piece acts as a north pole; and after switching the electro-permanent magnet to the reversed state, switching the electro-permanent magnet from the reversed state to an off state such that magnetic fields of the switching and permanent magnets combine to generate a third magnetic field having a magnitude beyond the working surface that is no more than 50 percent of the second magnitude beyond the working surface, wherein switching the electro-permanent magnet to the off state comprises reducing magnetism of the first and second switching magnets while maintaining polarities of the first and second switching magnets from the reversed state. - View Dependent Claims (12, 13, 14, 15, 16, 17)
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18. A controller for an electro-permanent magnet including a plurality of permanent magnets, a plurality of switching magnets, a working surface, a first pole piece, and a second pole piece, wherein the plurality of switching magnets includes first and second switching magnets, wherein the first pole piece is between the first switching magnet and the working surface, wherein the second pole piece is between the second switching magnet and the working surface, and wherein at least one of the permanent magnets is arranged between the first and second pole pieces with a north pole of the permanent magnet adjacent the first pole piece and a south pole of the permanent magnet adjacent the second pole piece, the controller comprising:
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a power switching device between an input coupling for an electrical power source and an output coupling for the electro-permanent magnet; and a processor coupled to the power switching device, where the processor is configured to control the power switching device to, provide the electro-permanent magnet in an on state such that magnetic fields of the switching and permanent magnets combine to generate a first magnetic field having a first magnitude and a first polarity extending beyond the working surface, wherein providing the electro-permanent magnet in the on state comprises switching the first switching magnet to provide a north pole adjacent the first pole piece and switching the second switching magnet to provide a south pole adjacent the second pole piece so that the first pole piece acts as a north pole and the second pole piece acts as a south pole, switch the electro-permanent from the on state to a reversed state having a second polarity such that magnetic fields of the switching magnet and the permanent magnet combine to generate a second magnetic field having a second magnitude and a second polarity extending beyond the working surface wherein the second magnitude is less than the first magnitude and wherein the first and second polarities are different, wherein switching the electro-permanent magnet to the reversed state comprises switching the first switching magnet to provide a south pole adjacent the first pole piece and switching the second switching magnet to provide a north pole adjacent the second pole piece so that the first pole piece acts as a south pole and the second pole piece acts as a north pole, and switch the electro-permanent magnet from the reversed state to an off state such that magnetic fields of the switching and permanent magnets combine to generate a third magnetic field having a magnitude beyond the working surface that is no more than 50 percent of the second magnitude beyond the working surface, wherein switching the electro-permanent magnet to the off state comprises reducing magnetism of the first and second switching magnets while maintaining polarities of the first and second switching magnets from the reversed state. - View Dependent Claims (19, 20, 21, 22, 23)
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Specification